Unstable Nuclei and Radioactive Decay

Slides:

Advertisements

Similar presentations

Unstable Nuclei and Radioactive Decay

Advertisements

Unstable Nuclei and Radioactive Decay

Unstable Nuclei and Radioactive Decay Objectives: 9.0 Distinguish between chemical and nuclear reactions. 9.3 Identifying types of radiation and their.

Unstable Nuclei and Radioactive Decay

Average Atomic Mass Unstable nuclei and Radioactive Decay.

Radioactivity Some substances spontaneously emit radiation – radioactivity The rays and particles emitted are called “radiation”. Radioactive elements.

Chemical Reactions Involves the change of one or more substances into new substances Atoms are rearranged but their identities do NOT change The reaction.

Alpha Decay. Radioactive Decay Alpha Decay Radioactive Decay Alpha Decay Beta Decay.

Chemistry Chapter 4 Notes #3 (Sec 4). Unstable Nuclei Nuclear Reactions Nuclear Reactions –Rxns that involve a change in the nucleus of an atom (most.

Radioactive Material Review. What determines the atoms identity?

HomeworkHomework Read section 4.4 Answer questions 26 & 27 on page 107.

Unstable Nuclei and Radioactive Decay. Radioactivity (Radioactive decay) The process by which some substances spontaneously emit radiation. Radioactive.

Some nuclei – usually large ones – are unstable They cannot fit their neutrons and protons into a space small enough that that strong nuclear force can.

A radioactive isotope is an atom that has a nucleus that is not stable (will change to form a nucleus of a different element). The process by which the.

Day 8 Chapter 4 Section 4.

HOW ATOMS DIFFER  If all atoms are made up of protons, electrons, and neutrons, what makes them different? They differ in the number of these particles.

Nuclear Radiation Prentice-Hall Chapter 25.1 Dr. Yager.

NUCLEAR CHANGE.

The Structure of the Atom

Lesson 17 Atomic Number and Mass

5.2 Nuclear Reactions In the nuclear equation for alpha decay, the mass number of the new nucleus decreases by 4 and its atomic number decreases.

Section 5: Radioactive Elements

Alpha, Gamma and Neutron Radiation

Lecture 19 Unstable Nuclei and Radioactive Decay Ozgur Unal

Atomic Structure Know the three types of ionising radiation

Alpha, Beta, and Gamma Decay

The Atom The atom consists of two parts:

The Atom The atom consists of two parts:

Alpha, Beta, and Gamma Decay

Nuclear Energy Atoms and Isotopes.

Nuclear Chemistry Physical Science.

V. Radioactivity.

Chemistry 25.1.

Alpha, Beta, and Gamma Decay

25.1 Nuclear Radiation 25.1 Marie Curie was a Polish scientist whose research led to many discoveries about radiation and radioactive elements. In 1934.

Daily science Naturally occurring europium (Eu) consists of two isotopes with a mass of 151 and 153. Europium-151 has an abundance of 48.03% and Europium-153.

UNIT 15: NUCLEAR CHEMISTRY

Alpha, Beta, and Gamma Decay

alpha radiation (a) helium atom or beta radiation (b) electron or

Nuclear Energy Atoms and Isotopes.

Section 4: Unstable Nuclei and Radioactive Decay

Radioactivity results from having an unstable nucleus.

Nuclear Chemistry Notes#6

UNIT 2 Chapter 25 Types of Nuclear Radiation

Nuclear Chemistry.

Topic 2 – Atomic Structure

Ch. 25 Discovery of Electron/Nucleus and Radiation

Chapter 9 Nuclear Radiation

Alpha, Beta, and Gamma Decay

LT & SC Radiation Intro Nuclear Radiation Notes

Ionising Radiation.

Ionising Radiation.

Alpha, Beta, and Gamma Decay

Radioactivity Radioactive decay.

Chemistry 2 Honors Northwestern High School J. Venables

Radioactive Decay Radioactivity results from having an unstable nucleus. When these nuclei lose energy and break apart, decay occurs. Radioactive decay.

Unstable Nuclei and Radioactive Decay

Chapter 4 – The Structure of the Atom

Discovering radioactivity

Chapter 4 Structure of the Atom.

CN#5 Nuclear Radiation Marie Curie was a Polish scientist whose research led to many discoveries about radiation and radioactive elements. In 1934 she.

Section 5 - pg 158 Radioactive Elements

Unit 4 – Nuclear Reactions

SPARK In your notebook write down the following:

Alpha, Beta, and Gamma Decay

Key areas Nuclear equations to describe radioactive decay, fission and fusion reactions with reference to mass and energy equivalence including calculations.

Unit 4 – Nuclear Reactions

Sec. 3.2 – Radioactive Decay

Chemistry Unit Two, Day Four.

Presentation transcript:

Unstable Nuclei and Radioactive Decay Objectives: 9.0 Distinguish between chemical and nuclear reactions. 9.3 Identifying types of radiation and their properties AOD C.9.4 Identify nuclear reactions as those types involving nuclear particles, including alpha particles, beta particles, and gamma rays.

Radioactivity In chemical reactions, atoms recombine, but maintain their identity. If an atom loses or gains a proton, it becomes a different element. This is what happens in nuclear reactions, because they involve a change in the nucleus.

Radioactivity (cont.) Some unstable, radioactive atoms change this way when they emit radiation (both rays and particles), until they reach a stable, nonradioactive form. What is this process called? Answer: Radioactive decay

Types of Radiation Three-Tab Foldable: Alpha radiation Beta radiation Gamma radiation

Alpha Radiation Alpha particles contain 2 protons and 2 neutrons. What would its charge be? What would its mass be? It is equivalent to a helium-4 atom, so what would its symbol be? Symbol: 4He 2 Example: Radium-226 →Radon-222 + 4He

Beta Radiation Beta particles are fast-moving electrons. What would its charge be? What would its mass be? Symbol: 0β -1 Example: Carbon-14 → nitrogen-14 + 0β

Gamma Radiation These are high-energy RAYS with no mass and no charge! Symbol: 0γ Gamma radiation USUALLY accompanies alpha or beta radiation. Example: uranium-238 → thorium-234 + 4He + 2 0γ 2 0

Check Your Understanding P.107: 27 Complete the following reactions: 60Co → 60Ni + ? 27 28 241Am → 237Np + ? 95 93